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1

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Sensitivity of the coefficients of thermal expansion of selected graphite reinforced composite laminates to lamina thermoelastic properties (1992)

Funk, J. G. ; Tompkins, S. S.

In: Other Sources

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Publication Date: 2011-08-24

Description: An analytical study of the sensitivity of the laminate coefficient of thermal expansion, CTE, to changes in lamina elastic properties has been made. High modulus graphite/epoxy (P75/934, P100/934, P120/934), graphite/aluminum (P100/Al), and graphite/glass (HMS/Gl) composite materials were considered in quasi-isotropic, low thermal stress, and 'near-zero' thermal expansion laminate configurations. The effects of a positive or negative 10 percent change in lamina properties on laminate CTE is strongly dependent upon both the composite material and the laminate configuration. A 10 percent change in all of the lamina properties had very little effect on the laminate CTE of the HMS/Gl composite laminates investigated. The sensitivity and direction of change in the laminate CTE of Gr/934 depended very strongly on the fiber properties. A 10 percent change in the lamina transverse CTE resulted in changes as large as 0.216 ppm/C in the laminate CTE of a quasi-isotropic Gr/934 laminate. No significant difference was observed in the sensitivity of the laminate CTE of the P100/934 and P120/934 composite materials due to changes in lamina properties. Large changes in laminate CTE can result from measured temperature and radiation effects on lamina properties.

Keywords: COMPOSITE MATERIALS

Type: SAMPE Quarterly (ISSN 0036-0821); 23; 55-61

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2

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Thermally induced twist in graphite-epoxy tubes (1988)

Hyer, M. W. ; Rousseau, C. Q. ; Tompkins, S. S.

In: Other Sources

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Publication Date: 2011-08-19

Description: This paper discusses an analytical and experimental study to investigate the thermally induced twist in laminated angle-ply graphite-epoxy tubes. Attention is focused on balanced laminates which, contrary to intuition, exhibit twist when the temperature is changed. The twisting is due to the fact that a lamina with ( a + phi) orientation and a lamina with (a - phi) orientation must be at slightly different radial positions in the twist. The lamina with the greater radial position determines the sense of the twist. Classical lamination theory does not predict this phenomenon, and so as more sophisticated theory must be employed. This paper outlines such as theory, which is based on an generalized plane-deformation elasticity analysis, and presents experimental data to confirm the predictions of the theory. A brief description of the experimental apparatus and procedure used to measure twist is presented.

Keywords: COMPOSITE MATERIALS

Type: ASME, Transactions, Journal of Engineering Materials and Technology (ISSN 0094-4289); 110; 83-88

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3

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Thermal expansion of selected graphite-reinforced polyimide-, epoxy-, and glass-matrix composites (1987)

Tompkins, S. S.

In: Other Sources

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Publication Date: 2011-08-19

Description: The thermal expansion of continuous carbon-fiber reinforced composites with epoxy-, polyimide-, and borosilicate glass-matrices has been measured and compared. The expansion of a rubber-toughened epoxy-matrix/P75S carbon-fiber composite was very different from the expansion of two different single-phase epoxy-matrix/P75S composites, although all three had the same stacking sequence. Reasonable agreement was obtained between measured thermal expansion data and results from classical laminate theory. Microdamage in the graphite/polyimide laminate, induced by 250 cycles between -156 and 121 C, caused a 53 percent decrease in the coefficient of thermal expansion. The thermal expansion of the graphite/glass laminate was not changed after 100 thermal cycles from -129 to 38 C; however, a residual strain of about 10 x 10 to the -6 was observed for the laminate tested.

Keywords: COMPOSITE MATERIALS

Type: International Journal of Thermophysics (ISSN 0195-928X); 8; 119-132

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4

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Interlaminar fracture of random short-fiber SMC composite (1984)

Suemasu, H. ; Zahlan, N. M. ; Wang, S. S.

In: Other Sources

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Publication Date: 2011-08-19

Description: In the experimental phase of the present study of the interlaminar fracture behavior of a randomly oriented short fiber sheet molding compound (SMC) composite, the double cantilever beam fracture test is used to evaluate the mode I interlaminar fracture toughness of different composite thicknesses. In the analytical phase of this work, a geometrically nonlinear analysis is introduced in order to account for large deflections and nonlinear load deflection curves in the evaluation of interlaminar fracture toughness. For the SMC-R50 material studied, interlaminar toughness is an order of magnitude higher than that of unreinforced neat resin, due to unusual damage mechanisms ahead of the crack tip, together with significant fiber bridging across crack surfaces. Composite thickness effects on interlaminar fracture are noted to be appreciable, and a detailed discussion is given on the influence of SMC microstructure.

Keywords: COMPOSITE MATERIALS

Type: Journal of Composite Materials (ISSN 0021-9983); 18; 574-594

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5

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Ultrasonic and mechanical characterizations of fatigue states of graphite epoxy composite laminates (1982)

Lee, S. S. ; Yuce, H. ; Williams, J. H., Jr.

In: Other Sources

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Publication Date: 2011-08-18

Description: Results of an exploration of the relationship between ultrasonic attenuation and fatigue survivability of graphite fiber epoxy composites fabricated under different cure conditions are reported. A total of 9 27 x 40 cm eight-ply graphite epoxy laminated specimens were formed, and fatigue tests were run on five partial samples at 73.5 N varying at 30 Hz, with tests ending at a 1.27 cm deflection. A pulsed oscillator generated sinusoidal waves and transducers recorded the passage of the ultrasonic waves for display on oscilloscopes. Cure pressures ranged from 0.52-0.85 MPa and cure temperatures were in the 150-200 C interval. Ultrasonic through-transmission at 4 MHz was performed prior to and during fatigue testing. The minimum void volume fraction occurred at 175 C and 0.86 MPa. The flexural stiffness decreased with the number of fatigue cycles past 10,000, when the attenuation also increased. Correlations were found between the 4.0 MHz signal attenuation and the void volume fraction, and between the number of fatigue cycles to failure and the 4.0 MHz signal attenuation.

Keywords: COMPOSITE MATERIALS

Type: Materials Evaluation; 40; Apr. 198

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6

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Dynamic crack propagation and arrest in orthotropic DCB fiber composite specimens (1981)

Lee, S. S. ; Williams, J. H., Jr. ; Kousiounelos, P. N.

In: Other Sources

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Publication Date: 2011-08-18

Description: An orthotropic double cantilever beam (DCB) model is used to study dynamic crack propagation and arrest in 90 deg unidirectional Hercules AS/3501-6 graphite fiber epoxy composites. The dynamic fracture toughness of the composite is determined from tests performed on the long-strip specimen and DCB crack arrest experiments are conducted. By using the dynamic fracture toughness in a finite-difference solution of the DCB governing partial differential equations, a numerical solution of the crack propagation and arrest events is computed. Excellent agreement between the experimental and numerical crack arrest results are obtained.

Keywords: COMPOSITE MATERIALS

Type: Engineering Fracture Mechanics; 14; 2, 19; 1981

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7

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Ultrasonic attenuation and velocity in AS/3501-6 graphite fiber composite (1980)

Williams, J. H., Jr. ; Lee, S. S. ; Nayeb-Hashemi, H.

In: Other Sources

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Publication Date: 2011-08-18

Description: The ultrasonic group velocity and attenuation were measured as a function of frequency for longitudinal and shear waves in the Hercules epoxy matrix (3501-6) and in the principal directions of the unidirectional Hercules graphite fiber epoxy composite (AS/3501-6). Tests were conducted in the frequency ranges 0.25-14 MHz and 0.5-3 MHz for longitudinal and shear wave modes, respectively. While the attenuation increased with frequency for all wave modes, the group velocity was independent of frequency for all wave modes. In studying the effects of transducer-specimen interface couplant and pressure, it was found that for each transducer, there exists a frequency-dependent 'saturation pressure' corresponding to the maximum output amplitude of the signal.

Keywords: COMPOSITE MATERIALS

Type: Journal of Nondestructive Evaluation; 1; June 198

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8

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Experimental and Theoretical Studies of Moisture and Temperature Effects on the Mechanical Properties of Graphite/Epoxy Laminates and Neat Resins (1984)

Sternstein, S. S.

In: CASI

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Publication Date: 2014-09-16

Description: The properties of high performnce composites which are strongly dependent on the physical properties of the matrix resin were studied. Moisture adversely affect the properties of both neat epoxy resin and epoxy matrix composites. Inhomogeneous swelling as to the moisture degradation of mechanical properties, both in the neat resin and the composite. It is postulated that the postcuring process can change structure/moisture interactions and partially alleviate its adverse effects. The study is directed toward are understanding of the physical/mechanical/thermodynamic aspects of this problem.

Keywords: COMPOSITE MATERIALS

Type: Composite Struct. Mater.; p 35-38

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9

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Dynamic-mechanical response of graphite/epoxy composite laminates and neat resin (1983)

Sternstein, S. S. ; Yang, P. ; Carlsson, L.

In: Other Sources

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Publication Date: 2011-08-18

Description: Dynamic mechanical measurement results are presented for the case of carbon fiber-reinforced, epoxy matrix composite laminates subjected to loading perpendicular to the lamination plane, as well as for neat epoxy resin under the same conditions, where temperatures ranged between 20 and 200 C and deformation levels lie within the linear viscoelastic region. In-phase and out-of-phase stiffnesses are found to become superposed, forming master curves that cover a 12-decade frequency range. The application of a master curve scaling procedure shows that the in-phase stiffness has the same shape, and out-of-phase stiffness has the same dispersion, for all laminates irrespective of stacking sequence and are, in turn, nearly identical to those for the neat epoxy resin. An empirical function is found for the relaxation modulus which, when converted to a dynamic modulus, yields good overall agreement for both of the dynamic stiffness components as a function of frequency.

Keywords: COMPOSITE MATERIALS

Type: (ISSN 0272-8397)

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10

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Effects of thermal cycling on mechanical properties of graphite polyimide (1984)

Williams, S. L. ; Tompkins, S. S.

In: Other Sources

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Publication Date: 2011-08-18

Description: Previously cited in issue 13, p. 2034, Accession no. A82-30101

Keywords: COMPOSITE MATERIALS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 21; 274-280

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